Ablerex ENERBATT 3G Wireless Battery Analysis Monitoring and Protection System Instructions

ENERBATT 3G Wireless Battery Analysis Monitoring and Protection System
Instructions ENERBATT 3G
Wireless battery analysis, monitoring and protection system

ENERBATT 3G Wireless Battery Analysis Monitoring and Protection System

The lowest installation and operating cost, maximum performance and battery system life is guaranteed by the voltage equalisation function.
IDEAL FOR

| Medical sector
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| Telecommunications
| Industrial applications

FEATURES

• Total flexibility with 2.4 GHz wireless communication technology that requires no preventative design and allows rack and cabinet configurations to be changed at any time.
• Everything easily under control: the most important parameters of each battery block are measured, including impedance, voltage, current and temperature.
• Good savings due to very simple and fast installation.
• Spikes are prevented and battery life and performance are maximised by equalization functions for each block.
• Each ENERBATT system can monitor and protect up to 750 blocks.
• The batteries are proteced by automatically disabling the measurement if the end-of-discharge voltage is reached. The measurement instruments are re-enabled automatically when the charging current is restored.
• Update frequency of 1 Hz ensures accurate measurements.
• Simultaneous management of batteries of different capacities and types (e.g. VRLA, AGM, NiCd, OPTS, OPZV, etc.) and mixed voltage configurations (e.g. 48 V and 240 V battery systems).
• Colour LCD display to clearly see configurations and parameters, including diagrams and voltage trend plots.
• Programmable alarm level.
• Alarm alerts via email and dry contact.
• Removable SD card for event storage.
• RS-485 ModBus port for communication between the receiver and control panel for monitoring large plants.
• Ethernet port and additional RS-485 ModBus port for remote monitoring.

KEY OPTIONS

• Temperature sensor for each block.
• Sensor kit for use with Ni-Cd batteries.
• Additional antenna for each battery to extend the wireless range.
• Dedicated software for remote monitoring and data storage.

BATTERY VOLTAGE EQUALISER

Continually equalizes the end-of-charge voltage of the batteries to the optimal level in order to prevent overcharging and ensure the best performance and durability. With the equalization function active, the voltage of each battery block is continually kept at the
ideal value.     

ENERBATT 3G TECHNICAL DATA SHEET

BMS-DC-LCDII (Central Unit)| User interface| 7′ colour LCD touch screen display
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Supply voltage| 12 Vdc
Power consumption| s 9 W
Communication ports| Ethernet. 2 RS685 Modbus Rill. dry relay contacts (1 in/3 out)
RF receiver monitoring| Up to 63 RF receivers
Wireless devices that can be connected| Up to 750
Storage capacity| SD memory card up to 16 gigabytes
Dimensions (WxDxH) mm| 260x150x57
Weight (kg)| 0.85
BMS-RFR
(RF receivers)| Supply voltage| 12 Vdc
Power consumption| s 3 W
Operating frequency| RF 2.6 GHz (wireless)”
Wireless devices that can be connected| Up to 256
Dimensions (WxDxH) mm| 129x70x35.5
Weight| 0.6
BMS-BMK (Battery meter)| Voltage| 1.2V (Ni-Cdl| 2V| 6V| 12V
Measurement range| 0.95-2.00 V| 1.684.00 V| 11.2-8.0 V| 8.5 -16.0V
Tolerance| t5 mV| ±10 mV
Impedance measurement accuracy| 2p0| 10pL)| >65Ah| 45 Ah
15 Kt| 2502
Measurable temperature”| 0-100°C t1°C
Power consumption| s 0.5 W
Input impedance| 2 Imo
Dimensions (WxDxH) mm| 100x27x70
Weight (kg)| 0.1
BMS
(Battery monitoring
system)
Silk
(String meter)| Measurement range| 0-120V| I 120-750 V
Tolerance| t0.2%
Measurable temperature| 0-100°C t1°C
Measured current range—| 0-3000 A
Supply voltage| 12 Vdc
Power consumption| s1.5 W
Input impedance| A ma
Dimensions (WxDxH) mm| 100x27x70
Weight (kg)| 0.09

Data may be subject to change without notice due to our commitment to continuous innovation – rev 22_06

• The maximum transmission distance is estimated to be 50 m if there are no obstacles. A distance of less than 20 m is recommended for optimal performance.
  ** The optional temperature sensor (TES) is required in order to measure the temperature.
  *** The optional Hall-effect current transformer (HCT) is required in order to measure the battery current.

References

• Ablerex | Experts in Power Conversion - Homepage

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